Effect of terminal chain length on the helical twisting power in achiral bent-core molecules doped in a cholesteric liquid crystal.

Byeong-Cheon Kim,Suk-Won Choi,Seong-Yong Jo,Hideo Takezoe,Mark R Wilson,Martin Walker

doi:10.1039/c7ra11589j

Abstract

We prepared a homologous series of achiral bent-core (BC) liquid crystals with different terminal alkoxy chain lengths, n (BC-n), and evaluated the helical twisting power (HTP) of the BC-n doped in a cholesteric liquid crystal. The BC-n molecules with longer terminal chains showed larger HTPs. To interpret this striking phenomenon, a stochastic dynamics simulation was performed to determine the distribution of the chirality order parameters (χ) for BC molecules with n = 8–16. The distribution of χ for each simulated conformation varied with n, and the variation tendency was different for molecules with n < 12 and n > 12 despite the linear relationship between HTP and n in the experiment.

Highlights

Since the discovery of polar switching in a liquid crystal (LC) phase composed of achiral bent-core (BC) molecules,[1] a variety of intriguing phenomena related to BC molecules have attracted signi cant interest from many researchers.[2,3,4] In this paper, we focus on a chirality-related phenomenon in BC molecular systems
Effect of terminal chain length on the helical twisting power in achiral bent-core molecules doped in a cholesteric liquid crystal
We prepared a homologous series of achiral bent-core (BC) liquid crystals with different terminal alkoxy chain lengths, n (BC-n), and evaluated the helical twisting power (HTP) of the BC-n doped in a cholesteric liquid crystal

Summary

Introduction

Since the discovery of polar switching in a liquid crystal (LC) phase composed of achiral bent-core (BC) molecules,[1] a variety of intriguing phenomena related to BC molecules have attracted signi cant interest from many researchers.[2,3,4] In this paper, we focus on a chirality-related phenomenon in BC molecular systems. Effect of terminal chain length on the helical twisting power in achiral bent-core molecules doped in a cholesteric liquid crystal We prepared a homologous series of achiral bent-core (BC) liquid crystals with different terminal alkoxy chain lengths, n (BC-n), and evaluated the helical twisting power (HTP) of the BC-n doped in a cholesteric liquid crystal.

Results

Conclusion